Noriyuki Okujo scite author profile

A novel siderophore, called acinetobactin, with both catecholate and hydroxamate functional groups was isolated from low-iron cultures of Acinetobacter baumannii ATCC 19606. The structure was elucidated by chemical degradation, fast-atom bombardment mass spectrometry and 1H and 13C NMR spectroscopy. Acinetobactin was composed of omega-N-hydroxyhistamine, threonine and 2,3-dihydroxybenzoic acid, the last two components forming an oxazoline ring. Acinetobactin was structurally related to anguibactin, a plasmid-encoded siderophore of Vibrio anguillarum. The only difference was that acinetobactin possessed an oxazoline ring instead of a thiazoline ring. Four of 12 other clinical A. baumannii strains examined produced acinetobactin, indicative of strain-to-strain variation in the ability to produce acinetobactin. In addition, a relatively small amount of acinetobactin was also detected in A. haemolyticus ATCC 17906.

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Structure of vulnibactin, a new polyamine-containing siderophore from Vibrio vulnificus

Okujo

Saito

Yamamoto

et al. 1994

Biometals

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A new siderophore named vulnibactin has been isolated from low iron cultures of Vibrio vulnificus, a human pathogen. The structure was established as N-[3-(2,3-dihydroxybenzamido)propyl]-l,3-bis[2-(2-hydroxyphenyl)-trans.5-methyl.2-oxazoline-4.carboxamido]propane by a combination of acid hydrolysis, nuclear magnetic resonance spectroscopy and positive fast atom bombardment mass spectrometry. Vulnibactin is characterized as containing one residue of 2,3-dihydroxybenzoic acid as well as two residues of salicylic acid, both of which are involved in the formation of oxazoline rings with L-threonine bound to a norspermidine backbone. In addition, two other compounds with siderophore activity were purified and their structures were also determined. These two compounds provided further support for the structure of vulnibactin.

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Structure and Iron Transport Activity of Vibrioferrin, a New Siderophore of Vibrio parahaemolyticus1

Yamamoto¹,

Okujo²,

Yoshida³

et al. 1994

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The structure of vibrioferrin, a siderophore from Vibrio parahaemolyticus, was elucidated based on a combination of partial hydrolysis and spectroscopic techniques. HPLC of purified vibrioferrin showed two peaks with an area ratio of approximately 2:1. However, upon reinjection of each of those isolated compounds, the original chromatographic pattern was obtained, indicating an equilibrium between two compounds in aqueous solution. Consistent with this finding, most of the NMR signals of vibrioferrin were duplicated. The structure was determined as 1-(2-[2-(5-carboxy-5-hydroxy-2-oxo-1-pyrrolidinyl)propionamide]ethyl) citrate, which exists in two epimeric forms resulting from cyclization between an amidic nitrogen of the alanine residue and a keto group of the 2-ketoglutaric acid residue. Transport experiments with 55Fe-labeled vibrioferrin demonstrated the function of vibrioferrin as a siderophore in V. parahaemolyticus. Kinetic studies with mid-log phase cells revealed that the iron uptake system was receptor-mediated, with Km and Vmax values of 67 nM and 54 pmol Fe/mg cell protein/min, respectively. Moreover, iron uptake mediated by vibrioferrin was blocked both by uncouplers and by ATPase inhibitors.

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Involvement of Vulnibactin and Exocellular Protease in Utilization of Transferrin‐ and Lactoferrin‐Bound Iron by Vibrio vulnificus

Okujo

Akiyama

Miyoshi

et al. 1996

Microbiology and Immunology

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In vitro growth experiments were conducted to evaluate the ability of vulnibactin, a siderophore produced by Vibrio vulnificus, to sequester transferrin-or lactoferrin-bound iron for growth. Comparative studies with the strain producing vulnibactin and its exocellular protease-deficient mutant revealed the involvement of the protease in addition to vulnibactin in effective utilization of iron ion (Feal bound to transferrin and lactoferrin. It appears that the protease causes cleavage of these proteins, thereby making bound iron more accessible to vulnibactin.

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Structure of acinetoferrin, a new citrate-based dihydroxamate siderophore fromAcinetobacter haemolyticus

et al. 1994

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From low-iron cultures of Acinetobacter haemolyticus ATCC 17906, a new hydroxamate siderophore was purified by XAD-7 adsorption followed by preparative thin layer chromatography. The siderophore, named acinetoferrin, released citric acid, 1,3-diaminopropane and (E)-2-octenoic acid upon hydrolysis with HCI, reductive hydrolysis with HI and oxidation with periodate, respectively. Structure elucidation by a combination of NMR spectroscopy and positive fast atom bombardment mass spectrometry revealed that acinetoferrin is a derivative of citric acid, both of its terminal carboxyl groups being symmetrically amide-linked with the 1-amino-3-(N-hydroxy-N-2-octenylamino)propane residues. The (E)-2-octenoic acid is novel as a component of the siderophores.

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Noriyuki Okujo

Isolation and structure elucidation of acinetobactin., a novel siderophore from Acinetobacter baumannii

Structure of vulnibactin, a new polyamine-containing siderophore from Vibrio vulnificus

Structure and Iron Transport Activity of Vibrioferrin, a New Siderophore of Vibrio parahaemolyticus1

Involvement of Vulnibactin and Exocellular Protease in Utilization of Transferrin‐ and Lactoferrin‐Bound Iron by Vibrio vulnificus

Structure of acinetoferrin, a new citrate-based dihydroxamate siderophore fromAcinetobacter haemolyticus

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